Published

2018

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SJ Vavrus, F He, JE Kutzbach, WF Ruddiman & PC Tzedakis (2018). Glacial Inception in Marine Isotope Stage 19: An Orbital Analog for a Natural Holocene Climate. Nature: Scientific Reports, 12 pagesDOI:10.1038/s41598-018-28419-5.

Buizert, C., Keisling, B.A., Box, J.E., He, F., Carlson, A.E., Sinclair, G., and DeConto, R.M. (2018). Greenland-Wide Seasonal Temperatures During the Last Deglaciation. Geophysical Research Letters 45, 1905-1914.

Pedro, J.B., Jochum, M., Buizert, C., He, F., Barker, S., and Rasmussen, S.O. (2018). Beyond the bipolar seesaw: Toward a process understanding of interhemispheric coupling. Quaternary Science Reviews 192, 27-46.

Barth, A.M., Clark, P.U., Bill, N.S., He, F., Pisias, N.G., (2018). Climate evolution across the Mid-Brunhes Transition. Clim. Past Discuss. 1-31.

Buizert, C., Sigl, M., Severi, M., Markle, B. R., Wettstein, J. J., McConnell, J. R., Pedro, J. B., Sodemann, H., Goto-Azuma, K., Kawamura, K., Fujita, S., Motoyama, H., Hirabayashi, M., Uemura, R., Stenni, B., Parrenin, F., He, F., Fudge, T. J., and Steig, E. J., 2018, Abrupt ice-age shifts in southern westerly winds and Antarctic climate forced from the north: Nature, v. 563, no. 7733, p. 681-685.

Yu, Y., O.V. Kalashnikova, M. Garay, H. Lee, and M. Notaro, 2018: Identification and characterization of dust source regions across North Africa and the Middle East using MISR satellite observations. Geophysical Research Letters, doi.org/10.1029/2018GL078324.

Gonzalez, P., F. Wang, M. Notaro, D. Vimont, and J. Williams, 2018: Disproportionate magnitude of climate change in the United States national parks. Environmental Research Letters, 13, 104001.

Besnard, S, Carvalhais, N, Arain, M, Black, T, Buchmann, N, Cescatti, A, Chen, J, Clevers, J, Desai, A.R., Gough, C., Havránková, K, Herold, M, Hoertnagl, L, Jung, M, Knohl, A, Kruijt, B., Krupkova, L, Law, B, Lindroth, A, Noormets, A, Roupsard, O, Steinbrecher, R, Varlagin, A, Vincke, C, and Reichstein, M., 2018. Quantifying the effect of forest age in annual net forest carbon balance. Env. Res. Lett., 13,124018, doi:10.1088/1748-9326/aaeaeb.

Chu, H., Baldocchi, D., Poindexter, C., Abraha, M., Desai, A.R., Bohrer, G., Arain, A., Griffis, T., Blanken, P., O'Halloran, T, Thomas, R.Q., Zhang, Q., Burns, S., Frank, J., Christian, D., Brown, S., Black, A., Cough, C., Law, B., Lee, X., Chen, J., Reed, D., Massman, W., Clark, K., Hatfield, J., Prueger, J., Bracho, R., Baker, J., and Martin, T., 2018. Temporal dynamics of aerodynamic canopy height derived from eddy covariance momentum flux data across North American Flux Networks, Geophysical Res. Lett., 45, 9275–9287, doi:10.1029/2018GL079306.

Dubois, S., Desai, A.R., Singh, A., Serbin, S., Goulden, M., Baldocchi, D., Ma, S., Oechel, W., Wharton, S., Kruger, E., and Townsend, P., 2018. Using imaging spectroscopy to detect variation in terrestrial ecosystem productivity across a water-stressed landscape Ecological Applications, 28, 1313-1324, doi:10.1002/eap.1733.

Helliker, B.R., Song, X., Goulden, M.L., Clark, K., Bolstad, P., Munger, J.W., Chen, J., Noormets, A., Dragoni, D., Hollinger, D., Wofsy, S.C., Martin, T., Baldocchi, D., Euskirchen, E., and Desai, A.R., 2018. Assessing the interplay between canopy energy balance and photosynthesis with cellulose δ18O: large-scale patterns and independent ground-truthing. Oecologia, 187(4), 995-1007, doi:10.1007/s00442-018-4198-z. Kleindl, W., Stoy, P., Binford, M., Desai, A.R., Dietze, M.C., Schultz, C., Starr, G., Staudhammer, C., and Wood, D., 2018. Toward a Social-ecological Theory of Forest Macrosystems For Improved Ecosystem Management Forests, 9(4), 200, doi:10.3390/f9040200.

Li, X.; Xiao, J.; He, B.; Arain, M.A., Beringer, J., Desai, A.R., Emmel, C., Hollinger, D., Krasnova, A., Mammarella, I.; Noe, S., Serrano-Ortiz, P., Rey-Sanchez, C. Rocha, A., and Varlagin, A., 2018. Solar-induced chlorophyll fluorescence is strongly correlated with terrestrial photosynthesis for a variety of biomes: First global analysis based on OCO-2 and flux tower observations, Global Change Biology, 24, 3990–4008, doi:10.1111/gcb.14297.

McCombs , A., Hiscox, A., Wang, C., Desai, A.R., Suyker, A.E., and Biraud, S.C., 2018. Carbon flux phenology from the sky: Evaluation for maize and soybean. J. Atmos. Ocean Tech., 35, 877-892, doi:10.1175/JTECH-D-17-0004.1.

Novick, K.A., Biederman, J.A., Desai, A.R., Litvak, M.E., Moore, D.J.P., Scott, R.L., and Torn, M.S., 2018. The AmeriFlux Network: A Coalition of the Willing. Agricultural and Forest Meteorology, 249, 444-456, doi:10.1016/j.agrformet.2017.10.009.

Pugh, C.A., Reed, D.E., Desai, A.R., Sulman, B.N., 2018. Wetland Flux Controls: How does interacting water table levels and temperature influence carbon dioxide and methane fluxes in Northern Wisconsin?, Biogeochemistry, 137(1–2), 15–25, doi:10.1007/s10533-017-0414-x.

Qiu, C., Zhu, D., Ciais, P., Guenet, B., Krinner, G., Peng, S., Aurela, M., Bernhofer, C., Brümmer, C., Bret-Harte, S., Chu, H., Chen, J., Desai, A.R., Dušek, J., Euskirchen, E. S., Fortuniak, K., Flanagan, L. B., Friborg, T., Grygoruk, M., Gogo, S., Grünwald, T., Hansen, B. U., Holl, D., Humphreys, E., Hurkuck, M., Kiely, G., Klatt, J., Kutzbach, L., Largeron, C., Laggoun-Défarge, F., Lund, M., Lafleur, P. M., Li, X., Mammarella, I., Merbold, L., Nilsson, M. B., Olejnik, J., Ottosson-Löfvenius, M., Oechel, W., Parmentier, F.-J. W., Peichl, M., Pirk, N., Peltola, O., Pawlak, W., Rasse, D., Rinne, J., Shaver, G., Schmid, H. P., Sottocornola, M., Steinbrecher, R., Sachs, T., Urbaniak, M., Zona, D., and Ziemblinska, K., 2018. ORCHIDEE-PEAT (revision 4596), a model for northern peatland CO2, water and energy fluxes on daily to annual scales Geosci. Model Dev., 11, 497-519, doi:10.5194/gmd-11-497-2018.

Reed, D.R., Dugan, H., Flannery, A., and Desai, A.R., 2018. Carbon sink and source dynamics of a eutrophic deep lake using multiple flux observations over multiple yearsLimnology and Oceanography Letters, 3, 285-292, 10.1002/lol2.10075.

Reed, D.E., Frank, J.M., Ewers, B.E., and Desai, A.R., 2018. Time dependency of eddy covariance site energy balance. Agricultural and Forest Meteorology, 249, 467-478, doi:10.1016/j.agrformet.2017.08.008.

Wu, C. Wang, S., Wang , H., Ciais , P., Penuelas, J., Myneni , R., Desai, A.R., Gough , C., Gonsamo , A., Black , A.,Jassal , R., Ju , W., Yuan , W., Fu , Y., Shen , M., Li, S., Liu, R., Chen , J., Ge, Q., 2018. Contrasting responses of autumn leaf senescence to daytime and night-time warming, Nature Climate Change, 8, 1092-1096, doi:10.1038/s41558-018-0346-z.

Xu, K., Metzger, S., Desai, A.R., 2018 Surface-atmosphere exchange in a box: Space-time resolved storage and net vertical fluxes from tower-based eddy covariance. Agricultural and Forest Meteorology, 255, 81-91, doi:10.1016/j.agrformet.2017.10.011.

Cohen, J., X. Zhang, J. Francis, T. Jung, R. Kwok, J. Overland, P. C. Tayler, S. Lee, F. Laliberte, S. Feldstein, W. Maslowski, G. Henderson, J. Stroeve, D. Coumou, D. Handorf, T. Semmler, T. Ballinger, M. Hell, M. Kretschmer, S. Vavrus, M. Wang, S. Wang, Y. Wu, T. Vihma, U. Bhatt, M. Ionita, H. Linderholm, I. Rigor, C. Routson, D. Singh, M. Wendisch, D. Smith, J. Screen, J. Yoon, Y. Peings, H. Chen, and R. Blackport, 2018: Arctic change and possible influence on mid-latitude climate and weather. US CLIVAR Report 2018-141 pp., doi:10.5065/D6TH8KGW.

Coumou, D., G. Di Capua, S. Vavrus, L. Wang, and S. Wang, 2018: The influence of Arctic amplification on mid-latitude summer circulation. Nature Communications, doi:10.1038/s41467-018-05256-8.

Zhong, Y., M. Notaro, and S. Vavrus, 2018: Attribution study of the spatially heterogeneous warming of the Laurentian Great Lakes warming. Clim. Dyn., https://doi-org.ezproxy.library.wisc.edu/10.1007/s00382-018-4481-z.

Liu, Y., J. R. Key, and S. Vavrus, and C. Woods, 2018: Time evolution of cloud response to moisture intrusions into the Arctic during winter. J. Climate, 31, 9389-9405.

Peings, Y., J. Cattiaux, S. Vavrus, and G. Magnusdottir, 2018: Projected squeezing of the wintertime North Atlantic jet. Env. Res. Lett., 13 074016, doi:10.1088/1748-9326/aacc79.

Vavrus, S., 2018: The influence of Arctic amplification on mid-latitude weather and climate. Curr. Clim. Change Reports, 4, 238-249.

Mioduszewski, J., S. Vavrus, and M. Wang, 2018: Diminishing Arctic sea ice promotes stronger surface winds. J. Climate, 31, 8101-8119.

Francis, J. A., N. Skific, and S. Vavrus, 2018: North American weather regimes are becoming more persistent: Is Arctic amplification a factor? Geophys. Res. Lett., 45, doi.org/10.1029/2018GL080252.

Vavrus, S. J., F. He, J. E. Kutzbach, W. F. Ruddiman, and P. C. Tzedakis, 2018: Glacial Inception in Marine Isotope Stage 19: An Orbital Analog for a Natural Holocene Climate. Scientific Reports, 8, doi.org/10.1038/s41598-018-28419-5.

Zhong, Y., M. Notaro, and S. Vavrus, 2018: Attribution study of the spatially heterogeneous warming of the Laurentian Great Lakes. Limnology and Oceanography, in revision.

Mortensen, E., S. Wu, M. Notaro, S. Vavrus, R. Montgomery, J. De Piérola, C. Sánchez, and P. Block, 2018: Regression-based season-ahead drought prediction for southern Peru conditioned on large-scale climate variables. Hydrology and Earth System Sciences, 22, 287-303.

Markus, M., J. Angel, G. Byard, S. McConkey, C. Zhang, X. Cai, M. Notaro, and M. Ashfaq, 2018: Communicating the impacts of projected climate change on heavy rainfall using a weighted ensemble approach. Journal of Hydrologic Engineering, 23, 04018004.

Yu, Y., M. Notaro, F. Wang, J. Mao, X. Shi, and Y. Wei, 2018: Validation of a statistical methodology for extracting vegetation feedbacks: Focus on North African ecosystems in the Community Earth System Model. Journal of Climate, 21, 1565-1586.

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RESEARCH SPOTLIGHT

Published

2018